Arctic warming linked to combination of reduced sea ice and global atmospheric warming

As corporations look to plunder Earth’s polar resources, temperatures in the Arctic are increasing 4 times faster than elsewhere in the world. Repost from Physics.org:

Professor Ian Simmonds from the University of Melbourne’s School of Earth Sciences co-authored the study and said the new information showed this combined effect at both ground and atmospheric level played a key role in increasing the rate of  in the .

“Loss of  contributes to ground level warming while global warming intensifies atmospheric circulation and contributes to increased temperatures higher in the Arctic atmosphere,” Professor Simmonds said.

Lead author, Dr James Screen of the School of Earth Sciences at the University of Melbourne said the sea ice acted like a shiny lid on the Arctic Ocean.

“When it is heated, it reflects most of the incoming sunlight back into space.  When the sea ice melts, more heat is absorbed by the water.  The warmer water then heats the atmosphere above it,” he said.

Professor Simmonds said as temperatures increase across the globe, so does the intensity of atmospheric circulation.

“This circulation transports energy to the Arctic region, increasing temperatures further up in the atmosphere,” he said.

“Water vapour is a very strong greenhouse gas. As the atmosphere warms it can hold more moisture, which acts as a positive feedback signal, increasing the greenhouse effect.  However, in the cold Arctic where there is less moisture in the air, this positive feedback is much weaker hence the ‘direct’ greenhouse effect is smaller in the Arctic than elsewhere.

“Even though the Arctic region has a relatively small , the effect of the melted ice combined with greater transports of heat from the south are more than enough to make up for this modest ‘local’ greenhouse warming.”

The study was published in the prestigious Geophysical Research Lettersand featured in Nature as one of ‘The most viewed papers in science’.

Journal reference: Geophysical Research Letters  Nature search and more info website

Provided by University of Melbourne search and more info

(Phys.org) — The combination of melting sea ice and global atmospheric warming are contributing to the high rate of warming in the Arctic, where temperatures are increasing up to four times faster than the global average, a new University of Melbourne study has shown.

 

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This entry was written by jcwinnie, posted on 2012-7-7 at 7:30 am, filed under analysis, atmosphere, denial, education, energy, environment, equity, ethics, forecast, thermodynamics, world and tagged , , . Bookmark the permalink. Follow any comments here with the RSS feed for this post. Both comments and trackbacks are currently closed.

One Comment

  1. jcwinnie
    Posted 2012-7-7 at 9:51 am | Permalink

    The Arctic News posts about Albedo change:

    Snow cover on the ice reflects between 80% and 90% of sunlight, while the dark ocean without ice cover reflects only 7% of the light, explains Stephen Hudson of the Norwegian Polar Institute. As the sea ice cover decreases, less solar radiation is reflected away from the surface of the Earth in a feedback effect that causes more heat to be absorbed and consequently melting to occur faster still.

    Arctic sea ice volumes keep falling. The image below is from the Polar Science Center‘s Pan-Arctic Ice Ocean Modeling and Assimilation System (PIOMAS, Zhang and Rothrock, 2003).

    As shown on the image below, by Wipneus and earlier published at the Arctic Sea Ice Blog, sea ice volume loss is on track to reach a minimum of 3000 cubic kilometers this summer.


    The recent sea ice volume is in line with the exponential trend calculated by Wipneus that is pointing at zero ice volume around 2015 (image below).

     

    Will sea ice collapse in 2014?

    As described earlier, I believe that a trendline pointing at 2014 fits the data best (image left).

    While some ice may persist close to Greenland for a few years more, this applies only to a relatively small area; this does not revert the curve downwards as it applies to the remainder of the Arctic Ocean. Moreover, there is robust evidence that global warming will increase the intensity of extreme weather events, so more heavy winds and more intense storms can be expected to increasingly break up the remaining sea ice in future, driving the smaller parts out of the Arctic Ocean more easily.

    Apart from the albedo change that comes with this loss of sea ice, there’s also the loss of snow cover on land. Snow cover over Northern Hemisphere lands retreated rapidly in May and June, leaving the Arctic Ocean coastline nearly snow free, says the National Snow & Ice Data Center (NSIDC), adding that this rapid and early retreat of snow cover exposes large, darker underlying surfaces to the sun early in the season, fostering higher air temperatures and warmer soils. 

    The NSIDC illustrates this with the edited Rutgers University Global Snow Lab image below.  
    Another image from Rutgers University Global Snow Lab, shown below, illustrates the anomalies in snow cover on Northern Hemisphere lands over the years. 
    The joint impact of loss of sea ice and loss of snow cover on land will make a huge difference; much more sunlight is now absorbed, instead of reflected back as was previously the case.

    Below are calculations by Professor Peter Wadhams, University of Cambridge. Earth has a total surface area of 510,072,000 square km (196,888,000 square miles), as the table below shows, by Michael Pidwirny, or about 510 million square km. 

    Surface
    Percent of Earth’s Total Surface Area
    Area Square Kilometers
    Area Square Miles
    Earth’s Surface Area Covered by Land
    29.2%
    148,940,000
    57,491,000
    Earth’s Surface Area Covered by Water
    70.8%
    361,132,000
    139,397,000
    Pacific Ocean
    30.5%
    155,557,000
    60,045,000
    Atlantic Ocean
    20.8%
    76,762,000
    29,630,000
    Indian Ocean
    14.4%
    68,556,000
    26,463,000
    Southern Ocean
    4.0%
    20,327,000
    7,846,000
    Arctic Ocean
    2.8%
    14,056,000
    5,426,000

    Professor Wadhams estimates the present summer area of sea ice at 4 million square km, with a summer albedo of about 0.60 (surface covered with melt pools). When the sea ice disappears, this is replaced by open water with an albedo of about 0.10. This will reduce the albedo of a fraction 4/510 of the earth’s surface by an amount 0.50. The average albedo of Earth at present is about 0.29. So, the disappearance of summer ice will reduce the global average albedo by 0.0039, which is about 1.35% relative to its present value.


    As NASA describes, a drop of as little as 0.01 in Earth’s albedo would have a major warming influence on climate—roughly equal to the effect of doubling the amount of carbon dioxide in the atmosphere, which would cause Earth to retain an additional 3.4 watts of energy for every square meter of surface area.

    Based on these figures, Professor Wadhams concludes that a drop in albedo of 0.0039 is equivalent to a 1.3 W/sq m increase in radiative forcing globally. 

    The albedo change resulting from the snowline retreat on land is similarly large, so the combined impact could be well over 2 W/sq m. By comparison, this would more than double the net 1.6 W/sq m radiative forcing resulting from the emissions caused by all people of the world (see IPCC image below). Professor Wadhams adds: ”Remember that this is going to happen in only about 3 years if the predictions of alarmist glaciologists like myself are correct“.


    References:

    1. PIOMAS, Washington University, Polar Science Center
    2. National Snow & Ice Data Center (NSIDC), July 5, 2012, Rapid sea ice retreat in June
    3. Rutgers University, Global Snow Lab
    4. Wikipedia, Earth
    5. NASA Earth Observatory, May 10, 2005, Earth’s Albedo in Decline
    6. IPCC, Working Group I, Fourth Assessment Report, Summary for Policymakers
    7. Pidwirny, M. (2006). “Introduction to the Oceans“. Fundamentals of Physical Geography, 2nd Edition.
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